Drone-based aerial mapping for field boundaries, elevation, drainage planning, yield zones and variable-rate prescription maps.
Agricultural Drone Mapping drone services in South Dakota are listed by 2 operators in this directory. South Dakota's state-level custom-rate guidance averages $12 to $16/acre, with the broader agricultural drone mapping band running $2 to $8/acre. In South Dakota, agricultural drone mapping most commonly serves corn, wheat and soybeans. South Dakota sits in the Great Plains region, which shapes the calendar, weather and competitive pressure local operators plan around. Commercial drone applications in South Dakota require Category 17: Aerial Application (General + Category G + Category 17) from South Dakota DANR on top of FAA Part 137 certification.
Agricultural Drone Mapping β quick facts
Agricultural drone mapping costs $2 to $8 per acre for raw orthomosaics and elevation data, rising to $5 to $15 per acre when prescription maps for variable-rate application are included. Only FAA Part 107 is required, with no Part 137 or state pesticide license needed. Fixed-wing drones cover 500 to 1,500 acres per flight, while quadcopter platforms handle 100 to 400 acres per flight.
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How agricultural drone mapping works
Agricultural drone mapping produces orthomosaics, digital elevation models and field boundary data for precision farming, drainage tile design, yield zone analysis and variable-rate prescriptions. Fixed-wing drones like the senseFly eBee X and quadcopter platforms like the DJI Mavic 3 Multispectral and Phantom 4 RTK cover 200 to 1,500 acres per flight at ground sample distances of 1 to 5 centimeters per pixel. Mapping is the lowest regulatory barrier ag drone service because it does not require Part 137 or a state pesticide license, only FAA Part 107 and the standard airspace authorizations. Typical deliverables include geo-referenced orthomosaics in GeoTIFF or JPEG, digital elevation models for drainage planning, volumetric calculations for silage piles and vegetation index maps (NDVI, NDRE) as a raw layer. Most operators charge per acre with a minimum flight fee, and prescription-ready outputs (variable-rate fertilizer or seed maps) command a premium over raw orthomosaic output.
Typical rate: $2 to $8/acre
Agricultural Drone Mapping on top South Dakota crops
In South Dakota, agricultural drone mapping is most commonly used on:
Prices reflect 2026 industry-typical drone spraying rates by crop. Pair with the operator-stated rates below for a quote tailored to your fields.
Aerial pesticide licensing in South Dakota
South Dakota requires Category 17: Aerial Application (General + Category G + Category 17) for aerial pesticide application. The licensing authority is South Dakota DANR.
Pro Ag Solutions was founded in 2021 by Cory Palm. Cory has an Associates Degree in Ag Aviation, then worked as an Agronomist for 20 years before stepping back into aerial application using drones. Starting with just a trailer and a DJI T30, Pro Ag Solutions has grown into a full fleet of drones and support vehicles. Licensed in ND, MN, SD. Services include row crop spraying, pasture spraying, CRP, aquatic and right-of-way spraying, multispectral imaging and mapping, soil sampling, cover crop spreading, seed spreading and fertilizer spreading. Team of 6 Part 107 pilots and 4 ground operations personnel.
Verified OperatorFAA Part 137 β
Drone SprayingFertilizer ApplicationCover Crop Seeding+3 more
2 operators in our directory list agricultural drone mapping as a service in South Dakota. Use the operator grid below to compare credentials, fleet, response time and pricing before reaching out.
Commercial agricultural drone mapping in South Dakota requires three credentials: an FAA Part 107 Remote Pilot Certificate for the pilot, an FAA Part 137 Agricultural Aircraft Operator Certificate for the business, and Category 17: Aerial Application (General + Category G + Category 17) from South Dakota DANR. Confirm any operator you hire holds all three before any application.
Most South Dakota operators book 4 to 6 weeks ahead of peak windows; rate confirmation is contract-bound and operator-specific. In South Dakota, agricultural drone mapping is most often booked for corn, wheat and soybeans, each with its own seasonal window. For one-off jobs during peak demand spikes, supply tightens fast β establishing the operator relationship in the off-season pays off.
Design drainage tile layouts from the elevation model, generate variable-rate seed and fertilizer prescriptions from NDVI zones, document stand counts after emergence, calculate storage pile volumes, track crop progress over the season and produce yield zone maps for post-harvest analysis. Most deliverables import directly into Climate FieldView, John Deere Operations Center or SMS software.
No. Mapping does not dispense anything, so Part 107 is sufficient. This is why mapping is often the first commercial ag drone service new operators add, since the regulatory barrier is roughly a weekend of study and a proctored exam compared to the months-long Part 137 exemption process.
RTK-corrected drone elevation maps typically hit 2 to 5 centimeter vertical accuracy, which is sufficient for tile drainage design in most field conditions. Engineers still verify high-precision designs with ground GPS shots at tile outlet locations, but the drone flight replaces 80 to 90 percent of the traditional grid survey time and cost.
Raw orthomosaic mapping runs $2 to $5 per acre with a $250 to $500 minimum flight fee. Adding elevation data typically adds $1 to $3 per acre. Full prescription-ready outputs (variable-rate maps in the customer agronomy software of choice) run $5 to $15 per acre. Multi-season contracts often discount these rates 20 to 30 percent.
Technically yes but practically no. T50s are designed for spraying payload and battery use, not long endurance mapping. Most operators who offer both services run a T50 for spraying plus a Mavic 3 Multispectral or Phantom 4 RTK for mapping because the mapping drones deliver better ground sample distance, longer flight times and better imaging sensors.
